Surface rupture
In seismology, surface rupture is the visible offset of the ground surface when an earthquake rupture along a fault affects the Earth's surface. Surface rupture is opposed by buried rupture, where there is no displacement at ground level. This is a major risk to any structure that is built across a fault zone that may be active, in addition to any risk from ground shaking. Surface rupture entails vertical or horizontal movement, on either side of a ruptured fault. Surface rupture can affect large areas of land.
Lack of surface rupture
Not every earthquake results in surface rupture, particularly for smaller and deeper earthquakes. In some cases, however, the lack of surface effects is because the fault that moved does not reach the surface. For example, the 1994 Northridge earthquake had a moment magnitude of 6.7, caused major damage in the Los Angeles area, occurred at below the Earth's surface, but did not cause surface rupture, because it was a blind thrust earthquake.Where surface rupture occurs
Surface ruptures commonly occur on pre-existing faults. Only rarely are earthquakes associated with faulting on entirely new fault structures. There is shallow hypocenter, and large fracture energy on the asperities, the asperity shallower than. Examples of such earthquakes are San Fernando earthquake, Tabas earthquake, and Chi-Chi earthquake.In surface rupture earthquakes, the large slips of land are concentrated in the shallow parts of the fault. And, notably, permanent ground displacements which are measureable can be produced by shallow earthquakes, of magnitude M5 and greater.
Types of surface rupture
The form that surface rupturing takes depends on two things: the nature of the material at the surface and the type of fault movement.File:Earthquake- road crack.jpg|thumb|300px|Consequences of the Chi-Chi earthquake, Jiji, Nantou County, Taiwan